Now, researchers from SUO Liumin’s team and LIU Gangqin’s team from Institute of Physics of the Chinese Academy of Science have developed a quantum sensing approach based on diamond nitrogen-vacancy (NV) centers.

In a first for Germany, researchers at the Karlsruhe Institute of Technology (KIT) have shown how so-called tin vacancies in diamonds can be precisely controlled using microwaves. These vacancies have special optical and magnetic properties and can be used as qubits, the smallest computational units for quantum computing and quantum communication. The results are an important step for the development of high-performance quantum computers and secure quantum communications networks. T

Cornell University researchers have demonstrated that acoustic sound waves can be used to control the motion of an electron as it orbits a lattice defect in a diamond, a technique that can potentially improve the sensitivity of quantum sensors and be used in other quantum devices.

As part of the Q-NEXT collaboration, Nitin Samarth is helping grow the capabilities of the Argonne Quantum Foundry. He’s also building a library of atom-scale materials for quantum technologies — and he’s sharing it with everyone.

Cells rely on constant interplay and information exchange with their micro-environment to ensure their survival and perform biological functions. Hence, precise quantification of tiny cellular adhesion forces, spanning from piconewtons to a few nanonewtons, is crucial for understanding the intricacies of force modulation in cells.

Research teams led by Academician DU Jiangfeng and Prof. RONG Xing from CAS Key Laboratory of Microscale Magnetic Resonance of University of Science and Technology of China (USTC) have systematically studied the relations between symmetries and high-order non-Hermitian exceptional points (EPs), and observed the third-order exceptional line (EL) in a nitrogen-vacancy (NV) spin system.

Fujitsu and Delft University of Technology (TU Delft) today announced the establishment of the Fujitsu Advanced Computing Lab Delft at Delft University of Technology, an industry-academia collaboration hub dedicated to the development of quantum computing technologies.

Industry-academia collaboration hub Fujitsu Advanced Computing Lab Delft at Delft University of Technology to drive development of advanced quantum computing technologies.

Researchers have begun to use magnets to entangle qubits, the building blocks of quantum computers; the simple technique could unlock complex capabilities.